Guangwei Gao scite author profile

The extensive computational burden limits the usage of CNNs in mobile devices for dense estimation tasks. In this paper, we present a lightweight network to address this problem, namely LEDNet, which employs an asymmetric encoderdecoder architecture for the task of real-time semantic segmentation. More specifically, the encoder adopts a ResNet as backbone network, where two new operations, channel split and shuffle, are utilized in each residual block to greatly reduce computation cost while maintaining higher segmentation accuracy. On the other hand, an attention pyramid network (APN) is employed in the decoder to further lighten the entire network complexity. Our model has less than 1M parameters, and is able to run at over 71 FPS in a single GTX 1080Ti GPU. The comprehensive experiments demonstrate that our approach achieves state-of-the-art results in terms of speed and accuracy trade-off on CityScapes dataset.

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Multi-scale deep context convolutional neural networks for semantic segmentation

Zhou

et al. 2018

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Learning robust and discriminative low-rank representations for face recognition with occlusion

Gao

Yang

Jing

et al. 2017

Pattern Recognition

106

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Regional deep learning model for visual tracking

Gao

et al. 2016

Neurocomputing

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Discriminative histograms of local dominant orientation (D-HLDO) for biometric image feature extraction

Qian

Yang

Gao

2013

Pattern Recognition

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LEDNet: A Lightweight Encoder-Decoder Network for Real-Time Semantic Segmentation

Wang

Zhou

Liu

et al. 2019

Preprint

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Reconstruction Based Finger-Knuckle-Print Verification With Score Level Adaptive Binary Fusion

Gao

Zhang

Yang

et al. 2013

IEEE Trans. on Image Process.

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Abstract-Recently, a new biometrics identifier, namely finger knuckle print (FKP), has been proposed for personal authentication with very interesting results. One of the advantages of FKP verification lies in its user friendliness in data collection. However, the user flexibility in positioning fingers also leads to a certain degree of pose variations in the collected query FKP images. The widely used Gabor filtering based competitive coding scheme is sensitive to such variations, resulting in many false rejections. We propose to alleviate this problem by reconstructing the query sample with a dictionary learned from the template samples in the gallery set. The reconstructed FKP image can reduce much the enlarged matching distance caused by finger pose variations; however, both the intra-class and inter-class distances will be reduced. We then propose a score level adaptive binary fusion rule to adaptively fuse the matching distances before and after reconstruction, aiming to reduce the false rejections without increasing much the false acceptances. Experimental results on the benchmark PolyU FKP database show that the proposed method significantly improves the FKP verification accuracy.

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FBSNet: A Fast Bilateral Symmetrical Network for Real-Time Semantic Segmentation

Gao

et al. 2023

IEEE Trans. Multimedia

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Guangwei Gao

Lednet: A Lightweight Encoder-Decoder Network for Real-Time Semantic Segmentation

Multi-scale deep context convolutional neural networks for semantic segmentation

Learning robust and discriminative low-rank representations for face recognition with occlusion

Regional deep learning model for visual tracking

Discriminative histograms of local dominant orientation (D-HLDO) for biometric image feature extraction

LEDNet: A Lightweight Encoder-Decoder Network for Real-Time Semantic Segmentation

Reconstruction Based Finger-Knuckle-Print Verification With Score Level Adaptive Binary Fusion

FBSNet: A Fast Bilateral Symmetrical Network for Real-Time Semantic Segmentation

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